Automatic Aligning Aiming Device

ABSTRACT

An automatically aligning aiming device that is magnetically attached to a weapon and automatically aligns itself parallel to the center axis of the gun barrel, using two magnet or sets of the magnets perpendicular to each other, without the need of rails, clamping, or other fastening aids, which allows the use of regular laser pointers with none or few modifications. The present invention provides additional aiming information without obstructing the original aiming sights of the weapon. The present invention uses two magnets or sets of magnets with resulting attractive magnetic forces perpendicular to each other.

The current application claims a priority to the U.S. Provisional Patentapplication Ser. No. 61/440,304 filed on Feb. 7, 2011.

FIELD OF THE INVENTION

The present invention relates generally to an apparatus for aiming. Moreparticularly, the present invention is an aiming device that adheres toa weapon and automatically aligns itself parallel to the center axis ofthe barrel, without the need of rails, clamping, or other fasteningaids, which allows the use of regular laser pointers with none or fewmodifications. The present invention provides additional aiminginformation without obstructing the original aiming sights of theweapon. The present invention uses two magnets or sets of magnetsresulting with attractive magnetic forces perpendicular to each other.

BACKGROUND OF THE INVENTION

Currently, available aiming devices for guns are mechanically integratedinto the gun structure or can be attached or affixed to a specific typeof gun with a particular geometry or need additional clamping orfastening for alignment. Therefore, the objective of the presentinvention is to introduce an apparatus, which can be used with any gunmade of ferromagnetic material that allows free access to the barrel orto any part of the structure with at least two surfaces or surface lines(tangential touch) forming a right angle and that are parallel to thecenter axis of the gun barrel. The device is easy to attach and toremove without tools and can be used for different various guns. Thepresent invention allows the use of commercially available laserpointers, with few to no modifications. The present invention alsooffers the possibility of precision adjusting the direction of the laserbeam for better accuracy in order to compensate for irregularities inthe gun, laser pointer geometry, or variations in the trajectory of theprojectile as a function of distance.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a perspective view of the first embodiment of the presentinvention.

FIG. 2 is a side view of the first embodiment of the present inventionin which a sectional view is taken and shown in FIG. 3.

FIG. 3 is a cross sectional view of the first embodiment of the presentinvention.

FIG. 4 is a perspective view of the first embodiment of the presentinvention attached to the barrel of a gun.

FIG. 5 is perspective view of the second embodiment of the presentinvention.

FIG. 6 is a side view of the second embodiment of the present inventionin which a sectional view is taken and shown in FIG. 7.

FIG. 7 is a cross sectional view of the second embodiment of the presentinvention.

FIG. 8 is a view of the second embodiment of the present invention.

FIG. 9 is a perspective view of the third embodiment of the presentinvention.

FIG. 10 is a side view of the third embodiment of the present inventionin which a sectional view is taken and shown in FIG. 11.

FIG. 11 is a cross sectional view of the third embodiment of the presentinvention.

DETAIL DESCRIPTIONS OF THE INVENTION

All illustrations of the drawings are for the purpose of describingselected versions of the present invention and are not intended to limitthe scope of the present invention.

The present invention is an automatically aligning aiming device used toalign a laser beam on an axis parallel to the center axis of a gunbarrel 1, which allows the user to better aim the gun towards itsintended target. The gun barrel 1 must be made of a ferromagneticmaterial for the device to function properly. The present invention canbe defined in three different embodiments.

One embodiment of the present invention will allow basic accuracy andwill most likely be used for short distance aiming or at a shootingrange. In reference to FIG. 1-4, this embodiment of the presentinvention comprises a frame 2, a laser pointer 27, a front fastener 32,a back fastener 33, and a contact switch 31. The frame 2 is the mainstructure of the device and provides a base for other components of thedevice to be connected together. The frame 2 consists of a barrel angle3, a laser angle 8, a plate 13, a first magnet 16, a second magnet 18,and a fixation 19. The barrel angle 3 is an L-bracket, which allows theframe 2 to embrace the gun barrel 1. The barrel angle 3 comprises of afirst barrel leg 4, a first magnet cavity 5, a second barrel leg 6, anda second magnet cavity 7. The first barrel leg 4 and the second barrelleg 6 are the perpendicular panels of the L-bracket. The first magnetcavity 5 is located along the first barrel leg 4 and is a recessedrectangular space. The second magnet cavity 7 is located along thesecond barrel leg 6 and is a recessed rectangular space with. Likewise,the laser angle 8 is an L-bracket, which allows the frame 2 to embracethe laser pointer 27. The laser angle 8 comprises a first laser leg 9, athird magnet cavity 10, and a second laser leg 11. The first laser leg 9and the second laser leg 11 are the perpendicular panels of theL-bracket. The third magnet cavity 10 is located along the first laserleg 9 and is a recessed rectangular space with a length equal to thelength of the second magnet cavity 7. The plate 13 is a rectangularpanel having a barrel magnet cavity 14. The barrel magnet cavity 14 is arecessed rectangular space with a length equal to the length of thefirst magnet cavity 5. The barrel angle 3, the laser angle 8, and theplate 13 are made of a material, such as aluminum or a suitable plastic,capable of withstanding the mechanical and thermal loads experiencedwhen the gun is being fired. The second magnet 18 is tightlyencapsulated by the second magnet cavity 7 and the third magnet cavity10 as the second barrel leg 6 and the first laser leg 9 are adheredtogether by the fixation 19. The first magnet 16 is tightly encapsulatedby the first magnet cavity 5 and the barrel magnet cavity 14 as theplate 13 adheres to the combined surface of the first barrel leg 4 andthe second laser leg 11 by the fixation 19. The fixation 19 is any meansto connect the barrel angle 3, the laser angle 8, and the plate 13together such as rivets or adhesives. The symmetric arrangement betweenthese combined cavities positions the first magnet 16 in a planeperpendicular to the plane of the second magnet 18, which provides thebarrel angle 3 with resulting perpendicular and symmetrical attractivemagnetic forces upon the gun barrel 1 that produce the parallel selfalignment of the device to the center axis of the gun barrel 1.

The first magnet 16 and the second magnet 18 are strong permanentmagnets, which are usually made of rare earth metals. The first magnet16 and the second magnet 18 provide the device with the necessarymagnetic force to attach the gun barrel 1 to the barrel angle 3, but themagnetic force is weak enough to allow the user to detach the devicefrom the gun barrel 1. The magnetic force is strong enough to prevent aseparation between the device and the gun barrel 1 when the gun recoilsor vibrates from a shot. When the gun barrel 1 attaches to the barrelangle 3, the magnetic attraction and the friction between the surface ofthe gun barrel 1 and the surface of the barrel angle 3 will stabilizethe gun barrel 1 against the barrel angle 3 during normal movements. Thedistance between the first magnet 16 and the second magnet 18 and thetangential line of touch with the barrel surface are designed to beshort, which maximizes the magnetic attractive forces. The magneticforce provided by the first magnet 16 and the second magnet 18 will alsoallow the device to self-align if the device is slightly moved out ofposition. If the device is used in particularly rough circumstanceswhile being attached to the gun, an additional mechanical fastener canbe used to secure the gun barrel 1 against the barrel angle 3. Theadditional mechanical fastener should not affect the ability of thedevice to self-align and serves only the purpose of avoiding a totalseparation in the special condition of use.

In this embodiment of the present invention, the lateral surface of thelaser pointer 27 makes contact with the laser angle 8 along two paralleltangential lines for the full length of the laser pointer 27. The frontfastener 32 connects from the second barrel leg 6 to the plate 13 andpresses the front half of the laser pointer 27 against the laser angle8. The back fastener 33 connects from the second barrel leg 6 to theplate 13 and presses the back half of the laser pointer 27 against thelaser angle 8. Both the front fastener 32 and the back fastener 33 holdthe laser pointer 27 in the place on the device. A parallel geometry iscreated between the center axis of the gun barrel 1 and the center axisof the cylindrical laser pointer 27 because of the positioning of thegun barrel 1 and the laser pointer 27 on the device. The parallelgeometry begins with the center axis of the gun barrel 1 being parallelto the lateral surface of the gun barrel 1. The barrel angle 3 makescontact with the lateral surface of the gun barrel 1 along two parallellines, which allows the barrel angle 3 to be parallel to the center axisof the gun barrel 1. The barrel angle 3 and the laser angle 8 connect toeach other on an even surface, which allows the laser angle 8 to beparallel to the center axis of the gun barrel 1. The laser angle 8 makescontact with the lateral surface of the laser pointer 27 along twoparallel lines, which allows the lateral surface of the laser pointer 27to be parallel to the center axis of the gun barrel 1. The lateralsurface of the laser pointer 27 is parallel to the center axis of thelaser pointer 27, which means that the center axis of the cylindricallaser pointer 27 is parallel to the center axis of the cylindrical gunbarrel 1. The same alignment occurs when the barrel angle 3 is attachedto any two perpendicular surface or tangential lines on the gun that areparallel to the center axis of the gun barrel 1.

The laser pointer 27 allows the user to aim the gun at the intendedtarget. The laser pointer 27 comprises a casing 28, a laser emittingmechanism 29, and an external switch 30. The casing 28 is thecylindrical lateral surface of the laser pointer 27 and is usually madeof ferromagnetic material, which is not important for this embodiment ofthe present invention but will be important for embodiments describedlater. Circumfused by the casing 28, the laser emitting mechanism 29emits a laser beam out of the laser pointer 27 along the center axis ofthe laser pointer 27. The laser beam is guided by the user to touch theintended target. The user will shoot a bullet along the center axis ofthe gun barrel 1, which will hit the intended target because the path ofthe laser beam and the path of the bullet are parallel and near eachother. The external switch 30 allows the user to manually turn the laserpointer 27 on and off. The contact switch 31 automatically turns on thelaser pointer 27 when the device is attached to the gun barrel 1.However, the turning on/off of the laser pointer 27 can achieved in avariety of different ways that are not important to the nature of thepresent invention.

In another embodiment of the present invention as shown in FIG. 5-8, thedevice comprises the components mentioned in the previous embodiment,but the device also comprises of a barrel fine adjustment mechanism 34,an Y-pivoting support 39, and a X-pivoting support 40. Even though thedevice is designed to automatically align the center axis of the laserpointer 27 and the center axis of gun barrel 1, the barrel fineadjustment mechanism 34 allows the user to correct for minormisalignments created by several factors such as irregularities in thegeometry of the device or the gun and projectile trajectory as afunction of distance. The barrel fine adjustment mechanism 34 aligns thecenter axis of the gun barrel 1 to be parallel with the center axis ofthe laser pointer 27. The lateral surface of the gun barrel 1 balanceson the Y-pivoting support 39 and the X-pivoting support 40, which asused as fulcrums in their respective planes. The Y-pivoting support 39is a small rectangular protrusion attached to the front half of thefirst barrel leg 4 and makes contact with the gun barrel 1. TheX-pivoting support 40 is a small rectangular protrusion attached to thefront half of the second barrel leg 6 and makes contact with the gunbarrel 1. The barrel fine adjustment mechanism 34 comprises a barrelY-adjustment hole 35, a barrel Y-adjustment screw 36, a barrelX-adjustment hole 37, and a barrel X-adjustment screw 38. The barrelY-adjustment hole 35 is a threaded hole that is located along the sameline as the Y-pivoting support 39. The barrel Y-adjustment hole 35traverses through both the plate 13 and the first barrel leg 4. Thebarrel Y-adjustment screw 36 engages the barrel Y-adjustment hole 35 andmakes contact with the gun barrel 1. The barrel Y-adjustment screw 36applies a counter force on the gun barrel 1 against the attractive forceapplied by the first magnet 16. The counter force applied by the barrelY-adjustment screw 36 and the attractive force applied by the firstmagnet 16 balance the gun barrel 1 on the Y-pivoting support 39 along aplane parallel to the plane of the second magnet 18. Similarly, thebarrel X-adjustment hole 37 is a threaded hole that is located along thesame line as the X-pivoting support 40. The barrel X-adjustment hole 37traverses through the second barrel leg 6 and the first laser leg 9. Thebarrel X-adjustment screw 38 engages the barrel X-adjustment hole 37 andmakes contact with the gun barrel 1. The barrel X-adjustment screw 38applies a counter force on the gun barrel 1 against the attractive forceapplied by the second magnet 18. The counter force applied by the barrelX-adjustment screw 38 and the attractive force applied by the secondmagnet 18 balance the gun barrel 1 on the X-pivoting support 40 along aplane parallel to the plane of the first magnet 16. In this embodimentof the present invention, the first magnet 16 and the second magnet 18need to apply a stronger attractive magnetic force than in the previousembodiment because only the Y-pivoting support 39, the X-pivotingsupport 40, the barrel Y-adjustment screw 36, and the barrelX-adjustment screw 38 make contact with the gun barrel 1. Thisembodiment of the present invention will most likely be used on a gunwith known dimensions for the gun barrel 1 because the Y-pivotingsupport 39, the X-pivoting support 40, the barrel Y-adjustment screw 36,and the barrel X-adjustment screw 38 need to the placed along thetangential lines of touch between the gun barrel 1 and the barrel angle6.

In another embodiment of the present invention as shown in FIG. 9-11,the device comprises of the components mentioned in the formerembodiment, but does not include the front fastener 32 and the backfastener 33. In this embodiment of the present invention, the deviceadditionally comprises a pointer holder 20, a laser fine adjustmentmechanism 21, and a pivoting ring 26. Other new components of thisembodiment include the frame 2 additionally comprising a laser magnet17, the laser angle 8 additionally comprising a fourth magnet cavity 12,and the plate 13 additionally comprising of a laser magnet cavity 15.The fourth magnet cavity 12 is located along second laser leg 11 and isa recessed rectangular space with the same length as the first magnetcavity 5. The laser magnet cavity 15 is a recessed rectangular spacewith a length equal to the length of the fourth magnet cavity 12. Boththe barrel magnet cavity 14 and the laser magnet cavity 15 are facingout of the same side of the plate 13, and both are equidistant from thecenter of the plate 13. Similarly, as the plate 13 adheres to thecombined surface of the first barrel leg 4 and the second laser leg 11by the fixation 19, the first magnet 16 is tightly encapsulated by thefirst magnet cavity 5 and the barrel magnet cavity 14, and the lasermagnet 17 is tightly encapsulated by the fourth magnet cavity 12 and thelaser magnet cavity 15. The symmetric arrangement of these cavitiespositions the first magnet 16 and the laser magnet 17 in the same planeand the second magnet 18 in a perpendicular plane. The laser magnet 17is a strong permanent magnet like the first magnet 16 and the secondmagnet 18. The laser magnet 17 and the second magnet 18 provide thedevice with necessary magnetic force to attract the laser pointer 27into the laser angle 8, but the laser pointer 27 does not make contactwith the laser angle 8 along the entire length of the laser pointer 27in this embodiment of the present invention. The laser magnet 17 and thesecond magnet 18 attract the laser pointer 27 into the laser angle 8because the casing 28 is made of a ferromagnetic material. The lasermagnet 17 and the second magnet 18 allow the device to self-align thelaser pointer 27 so that the center axis of the laser pointer 27 isparallel to the center axis of the gun barrel 1.

In order to physically attach the laser pointer 27 to the device forthis embodiment, the pointer holder 20 and the pivoting ring 26 must beproperly positioned on the device. The pointer holder 20 is arectangular protrusion, which is perpendicularly connected to the secondlaser leg 11. Together, the first laser leg 9, the second laser leg 11,and the pointer holder 20 form a square channel. The pivoting ring 26 isplaced in between the first laser leg 9 and the pointer holder 20 andadjacent to the second laser leg 11 or is placed into the squarechannel. The pivoting ring 26 is located on the back half of the squarechannel, beyond the middle of the frame 2, and on the opposite side ofthe laser diode. The laser pointer 27 is also placed in between thefirst laser leg 9 and the pointer holder 20 and adjacent to the secondlaser leg 11 or within the square channel, but the laser pointer 27traverse through the pivoting ring 26. The front of the laser pointer 27makes contact with the first laser leg 9 and the second laser leg 11because of the attractive magnetic force provided by the laser magnet 17and the second magnet 18. The laser pointer 27 simulates an unbalancedseesaw with the pivoting ring 26 as the fulcrum, but the scale on whichthe laser pointer 27 simulates an unbalance seesaw is too small tosignificantly alter the parallel geometry between the center axis of thegun barrel 1 and the center axis of the laser pointer 27 and only allowsfor a fine adjustment.

The laser fine adjustment mechanism 21 is different from the barrel fineadjustment mechanism 34 mentioned in the latter embodiment. Similarly,even though the device is designed to automatically align the centeraxis of the laser pointer 27 and the center axis of gun barrel 1, thelaser fine adjustment mechanism 21 allows the user to correct for minormisalignments arising from hidden variables, but does so by allowing theuser to align the laser pointer 27. The laser fine adjustment mechanism21 comprises a laser Y-adjustment hole 22, a laser Y-adjustment screw23, a laser X-adjustment hole 24, and a laser X-adjustment screw 25. Thelaser Y-adjustment hole 22 is a threaded hole that is located on thefront half of the second laser leg 11 behind the laser magnet 17 and isadjacent to the portion of the casing 28 closest to the second laser leg11. The laser Y-adjustment hole 22 traverses through both the plate 13and the second laser leg 11. The laser Y-adjustment screw 23 engages thelaser Y-adjustment hole 22 and makes contact with the front half of thelaser pointer 27. The laser Y-adjustment screw 23 applies a counterforce on the laser pointer 27 against the attractive force applied bythe laser magnet 17. The counter force applied by the laser Y-adjustmentscrew 23 and the attractive force applied by the laser magnet 17 balancethe laser pointer 27 on a pivoting ring 26 along a plane parallel to theplane of the second magnet 18. Similarly, the laser X-adjustment hole 24is a threaded hole that is located on the back half of the pointerholder 20 and is adjacent to the portion of the casing 28 closest to thepointer holder 20. The laser X-adjustment hole 24 traverses through thepointer holder 20. The laser X-adjustment screw 25 engages the laserX-adjustment hole 24 and makes contact with the back half of the laserpointer 27. The laser X-adjustment screw 25 applies a counter force onthe laser pointer 27 against the attractive force applied by the secondmagnet 18. The counter force applied by the laser X-adjustment screw 25and the attractive force applied by the second magnet 18 balance thelaser pointer 27 on the pivoting ring 26 along a plane parallel to theplane of the laser magnet 17 and the first magnet 16.

Optional features for the present invention include the finishing of thedevice, any additional fastening of the gun barrel 1 or the laserpointer 27 to the device for mechanical stability, or adding an LEDlight. The LED light could be used in combination with the laser pointer27 or just replace the laser pointer 27 altogether.

The magnets are commercially available and can be ordered in customsizes and strengths. The expected magnetic forces required to attach thedevice to a steel weapon is about three to six pounds per tangentialline of touch. The production of the present invention can be done withstandard mechanical construction methods. The laser pointer 27 can beeither ordered as already commercially available or special ordered witha few modifications in order to make it suitable for the intendedpurpose. The material of choice for the frame 2 would be a hard plasticor light metal, but the particular material of choice would depend onthe intended use of the device, the user's preferences on thespecifications, or the market's needs. The required precision grade forthe construction of the device is not especially high. If the magneticforces exerted by the magnets are particularly strong, then anadditional tool may be needed to detach the device from the gun barrel1. The additional tool can be just a simple lever.

The present invention can be used by the armed forces and lawenforcement personal with their regular weapons for training purposeswithout the need of modifying the weapons and with the possibility ofeasily attaching and removing the device. Range shooting will be highlyimproved with the information provided by the present inventionassociated to the aiming ways and customs of every particular persongiven the simplicity of attaching and detaching the device. For personaldefense at home, the benefits of the present invention are great. A lotof weapons in private possession do not have a special design,mountings, or mounting rails to accommodate accessories like laseraiming devices. For those weapons, the present invention will provide avery useful enhancement. Hunters will also benefit from the advantagesprovided by the present invention.

Although the invention has been explained in relation to its preferredembodiments, it is to be understood that many other possiblemodifications and variations can be made without departing from thespirit and scope of the invention as hereinafter claimed.

1. An automatically aligning aiming device comprises, a frame; a frontfastener; a back fastener; a laser pointer; a contact switch; said framecomprises a barrel angle, a laser angle, a plate, a first magnet, asecond magnet, and a fixation; and said laser pointer comprises acasing, a laser emitting mechanism, and an external switch.
 2. Saidautomatically aligning aiming device as claimed in claim 1 comprises,said second magnet being located in between said barrel angle and saidlaser angle; said first magnet being located in between said barrelangle and said plate; said barrel angle, said laser angle, and saidplate being connected by said fixation; said laser pointer being cradledby said laser angle; and said laser pointer being held in place by saidfront fastener and by said back fastener.
 3. Said automatically aligningaiming device as claimed in claim 1 comprises, said barrel anglecomprises a first barrel leg, a first magnet cavity, a second barrelleg, and a second magnet cavity; said laser angle comprises a firstlaser leg, a third magnet cavity, and a second laser leg; and said platecomprises a barrel magnet cavity.
 4. Said automatically aligning aimingdevice as claimed in claim 3 comprises, said first barrel leg beingconnected perpendicularly to said second barrel leg; said first laserleg being connected perpendicularly to said second laser leg; said firstmagnet cavity being positioned on said first barrel leg; said secondmagnet cavity being positioned on said second barrel leg; said thirdmagnet cavity being positioned on said first laser leg; said secondmagnet being encapsulated by said second magnet cavity and by said thirdmagnet cavity; said second barrel leg being attached to said first laserleg by said fixation; said first magnet being encapsulated by said firstcavity and said barrel magnet cavity; and said first barrel leg and saidsecond laser leg being attached to said plate by said fixation.
 5. Saidautomatically aligning aiming device as claimed in claim 3 comprises,said laser pointer being cradled by said first laser leg and said secondlaser leg; said front fastener being attached to said second barrel legand said second laser leg; said back fastener being attached to saidsecond barrel leg and said second laser leg; said contact switch beingpositioned on and traversing through said second barrel leg and saidfirst laser leg; and said contact switch being electrically connected tosaid laser pointer.
 6. An automatically aligning aiming devicecomprises, a frame; a front fastener; a back fastener; a laser pointer;a contact switch; a barrel fine adjustment mechanism; Y-pivotingsupport; X-pivoting support; said frame comprises a barrel angle, alaser angle, a plate, a first magnet, a second magnet, and a fixation;said barrel fine adjustment mechanism comprises a barrel Y-adjustmenthole, a barrel Y-adjustment screw, a barrel X-adjustment hole, and abarrel X-adjustment screw; and said laser pointer comprises a casing, alaser emitting mechanism, and an external switch.
 7. Said automaticallyaligning aiming device as claimed in claim 6 comprises, said secondmagnet being located in between said barrel angle and said laser angle;said first magnet being located in between said barrel angle and saidplate; said barrel angle, said laser angle, and said plate beingconnected by said fixation; said laser pointer being cradled by saidlaser angle; and said laser pointer being held in place by said frontfastener and by said back fastener.
 8. Said automatically aligningaiming device as claimed in claim 6 comprises, said barrel Y-adjustmenthole being positioned on and traversing through said plate and saidlaser angle; said barrel Y-adjustment hole being traversed by saidbarrel Y-adjustment screw; said barrel X-adjustment hole beingpositioned on and traversing through said laser angle and said barrelangle; and said barrel X-adjustment hole being traversed by said barrelX-adjustment screw.
 9. Said automatically aligning aiming device asclaimed in claim 6 comprises, said barrel angle comprises a first barrelleg, a first magnet cavity, a second barrel leg, and a second magnetcavity; said laser angle comprises a first laser leg, a third magnetcavity, and a second laser leg; and said plate comprises a barrel magnetcavity.
 10. Said automatically aligning aiming device as claimed inclaim 8 comprises, said first barrel leg being connected perpendicularlyto said second barrel leg; said first laser leg being connectedperpendicularly to said second laser leg; said first magnet cavity beingpositioned on said first barrel leg; said second magnet cavity beingpositioned on said second barrel leg; said third magnet cavity beingpositioned on said first laser leg; said second magnet beingencapsulated by said second magnet cavity and by said third magnetcavity; said second barrel leg being attached to said first laser leg bysaid fixation; said first magnet being encapsulated by said first cavityand said barrel magnet cavity; and said first barrel leg and said secondlaser leg being attached to said plate by said fixation.
 11. Saidautomatically aligning aiming device as claimed in claim 8 comprises,said laser pointer being cradled by said first laser leg and said secondlaser leg; said front fastener being attached to said second barrel legand said second laser leg; said back fastener being attached to saidsecond barrel leg and said second laser leg; said contact switch beingpositioned on and traversing through said second barrel leg and saidfirst laser leg; and said contact switch being electrically connected tosaid laser pointer.
 12. Said automatically aligning aiming device asclaimed in claim 8 comprises, said barrel Y-adjustment hole beingpositioned on and traversing through said first laser leg and saidsecond barrel leg; said Y-pivoting support is positioned on said secondbarrel leg; said barrel X-adjustment hole being positioned on andtraversing through said plate and said first barrel leg; and saidX-pivoting support is positioned on said first barrel leg.
 13. Anautomatically aligning aiming device comprises, a frame; a pointerholder; a laser fine adjustment mechanism; a pivoting ring; a laserpointer; a contact switch; said frame comprises a barrel angle, a laserangle, a plate, a first magnet, a laser magnet, a second magnet, and afixation; said laser fine adjustment mechanism comprises a laserY-adjustment hole, a laser Y-adjustment screw, a laser X-adjustmenthole, and a laser X-adjustment screw; and said laser pointer comprises acasing, a laser emitting mechanism, and an external switch.
 14. Saidautomatically aligning aiming device as claimed in claim 13 comprises,said second magnet being located in between said barrel angle and saidlaser angle; said first magnet being located in between said barrelangle and said plate; said laser magnet being located in between saidlaser angle and said plate; said barrel angle, said laser angle, andsaid plate being connected by said fixation; said pointer holder beingconnected to said laser angle; said pivoting ring being bracketed saidpointer holder and said laser angle; said pivoting ring being traversedby said laser pointer; said laser pointer being cradled by said pointerholder and said laser angle; and said laser pointer being held in placeby said second magnet and said laser magnet.
 15. Said automaticallyaligning aiming device as claimed in claim 13 comprises, said laserY-adjustment hole being positioned on and traversing through said plateand said laser angle; said laser Y-adjustment hole being traversed bysaid laser Y-adjustment screw; said casing being contacted by said laserY-adjustment screw; said laser X-adjustment hole being positioned on andtraversing through said pointer holder; said laser X-adjustment holebeing traversed by said laser X-adjustment screw; and said casing beingcontacted by said laser X-adjustment screw.
 16. Said automaticallyaligning aiming device as claimed in claim 13 comprises, said barrelangle comprises a first barrel leg, a first magnet cavity, a secondbarrel leg, and a second magnet cavity; said laser angle comprises afirst laser leg, a third magnet cavity, a second laser leg, and a fourthmagnet cavity; and said plate comprises a barrel magnet cavity and alaser magnet cavity.
 17. Said automatically aligning aiming device asclaimed in claim 16 comprises, said first barrel leg being connectedperpendicularly to said second barrel leg; said first laser leg beingconnected perpendicularly to said second laser leg; said first magnetcavity being positioned on said first barrel leg; said second magnetcavity being positioned on said second barrel leg; said third magnetcavity being positioned on said first laser leg; said fourth magnetcavity being positioned on said second laser leg; said second magnetbeing encapsulated by said second magnet cavity and by said third magnetcavity; said second barrel leg being attached to said first laser leg bysaid fixation; said first magnet being encapsulated by said first cavityand said barrel magnet cavity; said laser magnet being encapsulated bysaid fourth cavity and said laser magnet cavity; and said first barrelleg and said second laser leg being attached to said plate by saidfixation.
 18. Said automatically aligning aiming device as claimed inclaim 16 comprises, said pointer holder being connected perpendicularlyto said second laser leg; said pivoting ring being positioned in betweensaid pointer holder and said first laser leg and being positionedadjacent to said second laser leg; said pivoting ring being traversed bysaid laser pointer; said laser pointer being cradled by said pointerholder, said first laser leg, and said second laser leg; said laserY-adjustment hole being positioned on and traversing through said plateand said second laser leg; said second barrel leg and said first laserleg being traversed through by said contact switch; and said contactswitch being electrically connected to said laser pointer.